Green chemistry and sustainability have garnered more awareness in the chemical industry in recent years, but green chemistry classes are still not commonplace for either the undergraduate or graduate student curriculum. Additionally, many departments are seeking avenues to reach greater numbers and types of learners through online courses. To…

A one-semester, introductory chemistry course is described that develops a primarily qualitative understanding of structure-property relationships. Starting from an atoms-first approach, the course examines the properties and three-dimensional structure of metallic and ionic solids before expanding into a thorough investigation of molecules. In…

There exists a sparse representation of blind and low-vision students in science, technology, engineering and mathematics (STEM) fields. This is due in part to these individuals being discouraged from pursuing STEM degrees as well as a lack of appropriate adaptive resources in upper level STEM courses and research. Mona Minkara is a rising fifth…

This paper describes an upper-level undergraduate and graduate-level course on computers in chemical education that was developed and offered for the first time in Fall 2007. The course provides future chemistry teachers with exposure to current software tools that can improve productivity in teaching, curriculum development, and education…

Provides a synopsis of the current approach to teaching a course on chemical information at Oberlin College. Reports on changes made during the past two years. (Author/CCM)

Describes a recent experimental class format entitled Chemistry and the Human Environment, which was designed as an interesting yet comprehensive chemistry course for nonscience students. Topics illustrate chemical underpinnings of social problems of interest to students. Concludes that course content must change with time to remain effective and…

Summarizes the mechanics of a course designed to give students a structured, guided approach that simulates more closely the way that many students approach learning new material. (CCM)

Describes a forensic science course designed to give criminal justice students the knowledge and technology of science to solve a crime. The article includes a listing of topic areas, suggestions for the presentation of the content material, and an outline of the content and design. (MA)

Curriculum outlines are provided for teaching a two semester organic chemistry course based on scientific principles. Performance objectives for each unit can be developed and an example is described in this article. An attempt is made in this outline to interrelate organic chemistry with other areas of chemistry. (PS)

Suggests a new subject for the modern undergraduate program. The new subject should be chemical measurement, and its short definition might be the method of describing the properties and reactions of chemicals quantitatively." (Author/TS)

Discusses the inclusion of knowledge on macromolecules into a freshman chemistry course which emphasizes topics in organic chemistry, polymer science and biochemistry, atoms, chemical thermodynamics, and inorganic chemistry. Indicates that the program is the only way to keep chemistry education up to date. (CC)

Describes a course designed to strengthen a student's background in organic chemistry, demonstrate the interfacing of chemistry and biology, expose undergraduates to graduate research, provide familiarity with instrumentation, and provide a novel field experience. (Author/GS)

The program objectives are to instruct students in laboratory techniques, experimental procedures, evaluation of results, and laboratory project design. Integration of techniques which may span several areas of chemistry is emphasized in the solution of problems. Current course content of the program is listed. (GS)

Describes an interdisciplinary undergraduate level course which includes aspects of astronomy, biology, biochemistry, geology and physics. A description of the Keller style Personalized System of Instruction is included. (CP)